Optimization of hedging rules for reservoir operations

Document Type

Article

Publication Date

1-1-2008

Abstract

Reservoir operations play an important role in water resources planning and management. During periods of drought, when inflows to the reservoir are low, it may not be possible to satisfy the target delivery (planned demand), and shortage occurs. Reservoir hedging rules, which include a set of rule curves and rationing factors, are used to guide the operation under such a situation. In particular, hedging rules are employed to balance the current shortage in supply with future storage to avoid severe water shortages in the future. In general, hedging rules are determined at the planning stage, or at the early stage of a reservoir's operating life. However, after years of operation, the reservoir system, as well as the demand characteristics, may change. Hence, it becomes necessary to reevaluate and update the existing hedging rules to incorporate changes that have taken place. The purpose of this paper is to devise new hedging rules for an existing multireservoir system. An original mixed-integer nonlinear programming model is transformed to a mixed-integer quadratic programming model. A multireservoir system in southern Taiwan is used as a case study to demonstrate the utility of the model. The results show that the optimized new hedging rules improve the efficiency of reservoir operations of the water distribution system. © 2008 ASCE.

Publication Source (Journal or Book title)

Journal of Water Resources Planning and Management

First Page

3

Last Page

13

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